Development of a Passive and Slope Adaptable Prosthetic Foot
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Historically, users of prosthetic ankles have relied on actively operated systems to provide effective slope adaptability. However, there are many drawbacks to these systems. This research builds upon work previously completed by Hansen et al. as it develops a passive, hydraulically operated prosthetic ankle with the capability of adapting to varying terrain in every step. Using gait cycle data and an analysis of ground reaction forces, the team determined that weight activation was the most effective way to activate the hydraulic circuit. Evaluations of the system pressure and energy showed that although the spring damper system results in a loss of 9J of energy to the user, the footplate stores 34J more than a standard prosthesis. Therefore, the hydraulic prosthetic provides a 54% increase in stored energy when compared to a standard prosthesis. The hydraulic circuit manifold prototype was manufactured and tested. Through proof of concept testing, the prototype proved to be slope adaptable by successfully achieving a plantarflexion angle of 16 degrees greater than a standard prosthetic foot currently available on the market.
Date issued
2017-08Department
MIT-SUTD Collaboration; Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science; Massachusetts Institute of Technology. Department of Mathematics; Massachusetts Institute of Technology. Department of Mechanical Engineering; Massachusetts Institute of Technology. Department of Urban Studies and Planning; Sloan School of ManagementJournal
Volume 5A: 41st Mechanisms and Robotics Conference
Publisher
ASME International
Citation
Amiot, David E., Rachel M. Schmidt, Angwei Law, Erich P. Meinig, Lynn Yu, Kathryn M. Olesnavage, Victor Prost, and Amos G. Winter. “Development of a Passive and Slope Adaptable Prosthetic Foot.” Volume 5A: 41st Mechanisms and Robotics Conference (August 6, 2017).
Version: Final published version
ISBN
978-0-7918-5817-2